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|  DSH 393, V9 ^6 q* M4 ~" L0 m+ v
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| Test of non-separable thin sheet material
* w0 j* p% V6 a( W ~" [/ q; a- g* | | 8.81 o* ?/ W- A& }- w+ y- j0 K
| 60065(ed.6)
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0 w! N8 k0 p( CStandard(s):
0 g* G$ t6 u' O( g, c0 r# u3 cIEC 60065:1998, 6th ed.
5 g. W6 W$ [% C' OSub clause(s):
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Sheet No:
1 H! m q$ F/ z; G- p. q P2 U: V393
( T4 q# o) R% V% F4 F& T, zSubject:9 d7 C% b$ a/ w$ P+ l; `3 @
Test of non-separable thin. E$ [: @, }& h9 q# T+ y+ f6 k
sheet material
* M/ U' X- K6 o+ q( [7 U. [0 q6 xKey words:
/ V" _; n. d9 K2 g$ B) F- Thin sheet material
1 z4 J% k& l# g4 J m% S( bDecision taken at the 39th( b* w+ Z |( H' S- s2 c' x9 L
meeting 20026 H: k1 ?! N2 T# o; G* V' l. Z
Question:0 M5 E3 S& e$ h p# X; }, h0 a
Current technology is utilising non-separable thin sheet insulation within transformers for supplementary and: a4 f- Z. Y/ B' a9 V# M9 Y' ]
/or reinforced insulation. How should such non-separable insulation be assessed for suitability in these
. y0 i2 |7 n& k9 B0 [applications?' @# o2 F9 Z- ]* Y7 A2 l
Rationale:4 ~. x6 F: H4 M
There are non-separable thin sheet foils on the market used in wound components, which cannot be tested; J4 q% @ \+ d/ J
according to the requirements and test-method in the existing standard. The current published) D2 ?/ `& D {+ t9 y( P
requirements in the standard do not adequately address the use on non-separable thin sheet insulation A1 ~' i0 v) Y( v! n. m, u7 b
proposal was made by TC92-WG1 on how this matter can be handled.
4 ?0 x6 D$ [" B0 e6 I9 H6 R" M- TDecision:
+ q* k% o6 y( {5 k; @: \The following proposal shall be used until the new edition is published. c7 d, K4 c( t) D, O3 Y% j
The following amendment to the standard will be published to address this issue:
: _0 ~5 ?7 C5 e% u' r# Q2 K3 y2 Padd to clause 8.8 For requirements for non-separable thin sheet insulation in two or more layers, see 8.xx
1 w! |* U: m+ r! N- z+ J1 t; Ladd new clause 8.xx
2 ?# I* F7 n+ G; G% s8.xx Requirements for non-separable thin sheet insulation in two or more layers
, n! Z5 e# x9 X+ D1 b$ [& \& aThree separate test specimens of the sheet of 70 mm width shall be supplied by the manufacturer. The test
" W& ~4 T9 Y8 r; ]* G+ j' `& b: zis carried out by fixing a specimen on a mandrel made of steel, nickel plated, or brass with smooth surface4 V/ b; w* ? M$ \
finish as shown in figure x. A metal foil (aluminium or copper) 0,035 mm ± 0,005 mm thick shall be placed
* E' Y @: |: X6 i' K, wclose to the surface of the specimen and submitted to a pull of 1 N. The metal foil shall be so positioned that
" ], M* H$ x( Y1 E0 o9 s+ n9 w( lits edges are 20 mm away from the edge of the specimen and, when the mandrel is in its final position, it2 q' [/ ^2 S" g. b8 n ?+ Y1 k
covers the edges upon which the specimen is lying by at least 10 mm. The specimen is submitted to a pull8 v. k& N5 Y8 B Q# Z# `
of 150 N at its free end by an appropriate clamping device. The specimen shall be slowly rotated forwards
1 |+ g0 G6 o( @( {and backwards three times by 230° without jerks. If the specimen breaks at the clamping device during the
9 u" v, q8 \; crotation, the test is repeated. If one or more specimens break at any other place, the test is not fulfilled.3 M' @ o* G7 e( j5 n8 l
While the mandrel is in its final position, within the minute following the final positioning, a test voltage of 1,58 n4 y- Y% P$ @1 u0 h2 K' n9 V
times the value specified in table 5 is applied, as described in 10.3.2, between the mandrel and the metal! H$ k( \% p) L1 z
foil. No flashover or breakdown shall occur during the test, corona effects and similar phenomena being! ~9 ~5 C, G( s1 D& w. h
disregarded.# ], x! O" U3 j5 T) o* D* O
add new Figure x (Figure 6 of IEC 61558-1)
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发表于 2012-11-8 18:55
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